Physiologic Monitoring in the Cloud Carolyn McGregor AM, PhD Canada Research Chair Health Informatics Professor Faculty of Business and IT University of Ontario Institute of Technology Oshawa, Ontario, Canada Professor Carolyn McGregor is the Canada Research Chair in Health Informatics at the University of Ontario Institute of Technology, Canada. Dr McGregor has led pioneering research in Big Data, analytics, event stream processing, temporal data stream data mining, business process modelling, patient journey modelling and cloud computing. In the 1990s she led two of the earliest business analytics implementations in Australia for one of the largest banks and the largest retailer. In 1999 she commenced research with a neonatologist from a neonatal ICU in Australia and has continued to propose new and innovative approaches for the use of information technology in neonatal intensive care and specifically the application of Big Data techniques to neonatal intensive care. She established and leads the Artemis Project, a Big Data solution for neonatal intensive care to demonstrate new data intensive solutions for conditions such as late onset neonatal sepsis, neonatal apnea and spells, retinopathy of prematurity and anemia of prematurity. Her new work also uses Big Data techniques to assess the impact of morphine on the premature neonate. She now progresses her research within the context of critical care medicine, mental health, astronaut health and military and civilian tactical training. She has been awarded over $10 million in research, consultancy and infrastructure funding. She has led the establishment of two IT start-up companies internationally and has published over 130 research publications and 7 patents internationally. She has extensive collaborative relationships with healthcare organizations, researchers and industry in several countries around the world including Canada, Australia, USA, China and Ireland. In 2013 her Artemis project was awarded the Information Technology Association of Canada (ITAC) Ingenious Award in the Not for Profit Category. In 2014 she was awarded membership in the Order of Australia, general division, for significant service to science and innovation through health care information systems. She is regularly called upon by the media as an international specialist in health informatics and Big Data. Annual Quality Congress Breakout Session, Sunday, October 4, 2015 Physiologic Monitoring in the Cloud Objective: Develop an awareness of Big Data and Cloud Computing and how these technologies can be utilized to enable new approaches for the monitoring and analysis of physiological data in the cloud.
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Physiologic Monitoring in the Cloud
Carolyn McGregor AM, PhD Canada Research Chair Health Informatics Professor Faculty of Business and IT University of Ontario Institute of Technology Oshawa, Ontario, Canada
Professor Carolyn McGregor is the Canada Research Chair in Health Informatics at the University of Ontario Institute of Technology, Canada. Dr McGregor has led pioneering research in Big Data, analytics, event stream processing, temporal data stream data mining, business process modelling, patient journey modelling and cloud computing. In the 1990s she led two of the earliest business analytics implementations in Australia for one of the largest banks and the largest retailer. In 1999 she commenced research with a neonatologist from a neonatal ICU in Australia and has continued to propose new and innovative approaches for the use of information technology in neonatal intensive care and specifically the application of Big Data techniques to neonatal intensive care. She established and leads the Artemis Project, a Big Data solution for neonatal intensive care to demonstrate new data intensive solutions for conditions such as late onset neonatal sepsis, neonatal apnea and spells, retinopathy of prematurity and anemia of prematurity. Her new work also uses Big Data techniques to assess the impact of morphine on the premature neonate. She now progresses her research within the context of critical care medicine, mental health, astronaut health and military and civilian tactical training. She has been awarded over $10 million in research, consultancy and infrastructure funding. She has led the establishment of two IT start-up companies internationally and has published over 130 research publications and 7 patents internationally. She has extensive collaborative relationships with healthcare organizations, researchers and industry in several countries around the world including Canada, Australia, USA, China and Ireland. In 2013 her Artemis project was awarded the Information Technology Association of Canada (ITAC) Ingenious Award in the Not for Profit Category. In 2014 she was awarded membership in the Order of Australia, general division, for significant service to science and innovation through health care information systems. She is regularly called upon by the media as an international specialist in health informatics and Big Data. Annual Quality Congress Breakout Session, Sunday, October 4, 2015 Physiologic Monitoring in the Cloud Objective: Develop an awareness of Big Data and Cloud Computing and how these technologies can be utilized to enable new approaches for the monitoring and analysis of physiological data in the cloud.
Physiologic Monitoring in the Cloud
Carolyn McGregor AM, PhD
October 4, 2015 1
Physiologic Monitoring in the Cloud
Carolyn McGregor AM, PhDCanada Research Chair in Health Informatics, Professor,
McGregor, C., 2011, “A Cloud Computing Framework for Real‐time Rural and Remote Service of Critical Care”, IEEE Computer Based Medical Systems, Bristol, UK, 6 pages CDROM
Physiologic Monitoring in the Cloud
Carolyn McGregor AM, PhD
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DateMcGregor, C., Catley, C., James, (2012), “Variability Analysis with Analytics Applied to Physiological Data Streams from the Neonatal Intensive Care Unit”, 25th IEEE International Symposium on Computer‐Based Medical Systems (CBMS 2012), Rome, Italy
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Spells Classification Anemia of Prematurity
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PK/PD Morphine
Bressan N McGregor C Smith K Lecce L James A 2014 “Heart rate ariabilit as an indicator for morphine pharmacokinetics
Implications forClinical Engineering
Greer, R., Olivier, C., Pugh, J. E., Eklund, J.M., McGregor, C., 2014, “Remote, Real‐Time Monitoring and Analysis of Vital Signs ofNeonatal Graduate Infants”, 36th Annual International Conference of the IEEE EMBS, Chicago, USA, pp 1382‐5